(594913) 'Ayló'chaxnim

Radius of (594913) 'Ayló'chaxnim

The radius of (594913) 'Ayló'chaxnim is one of its most fundamental physical characteristics. The (594913) 'Ayló'chaxnim radius measures approximately 1.5 km, making it 4247.33× smaller than Earth. This measurement represents the average distance from the center of (594913) 'Ayló'chaxnim to its surface, providing crucial information about the celestial body's size and volume.

Understanding the (594913) 'Ayló'chaxnim radius is essential for calculating other important properties such as surface area, volume, and gravitational characteristics. The radius directly influences how we perceive and study this fascinating object in our Solar System.

Orbital Radius of (594913) 'Ayló'chaxnim

The (594913) 'Ayló'chaxnim semi-major axis is a critical orbital parameter that defines the average distance from the Sun. The (594913) 'Ayló'chaxnim semi-major axis measures 0.55 AU (approximately 8.30e+7 km), which represents the average orbital radius of (594913) 'Ayló'chaxnim. This measurement is fundamental to understanding (594913) 'Ayló'chaxnim's position in the Solar System and its relationship with other celestial bodies.

The orbital radius of (594913) 'Ayló'chaxnim determines how much solar radiation the planet receives, which directly influences its temperature, climate, and overall environmental conditions. This distance places (594913) 'Ayló'chaxnim in a specific region of the Solar System, each with unique characteristics and scientific significance.

When we examine the (594913) 'Ayló'chaxnim semi-major axis 0.55 AU, we gain insights into the planet's orbital mechanics, including its orbital period, velocity, and the gravitational forces at play. This parameter is essential for space mission planning and understanding the dynamics of our Solar System.

How Long is a Year on (594913) 'Ayló'chaxnim?

The (594913) 'Ayló'chaxnim orbital period defines the length of one complete revolution around the Sun. The (594913) 'Ayló'chaxnim orbital period is 0.04 hours, which is 208994.37× shorter than Earth's year. This orbital period determines the length of (594913) 'Ayló'chaxnim's year and directly influences seasonal patterns, climate cycles, and temperature variations.

The (594913) 'Ayló'chaxnim orbital period is directly related to its distance from the Sun, following Kepler's laws of planetary motion. Planets farther from the Sun have longer orbital periods, while those closer complete their orbits more quickly. This relationship helps explain why (594913) 'Ayló'chaxnim takes the time it does to complete one full orbit.

Understanding the (594913) 'Ayló'chaxnim orbital period is crucial for space mission planning, as it affects launch windows, travel times, and the timing of scientific observations. This fundamental orbital parameter also provides insights into the planet's formation history and its current position in the Solar System's dynamic structure.

Distance Between (594913) 'Ayló'chaxnim and Earth

How far is (594913) 'Ayló'chaxnim from Earth? This is a question that fascinates both astronomers and space enthusiasts. The distance between (594913) 'Ayló'chaxnim and Earth varies throughout their orbital cycles, but on average, (594913) 'Ayló'chaxnim is approximately 6.66e+7 km(0.445 AU) away from Earth. This distance changes as both planets orbit the Sun, with the closest approach (opposition) and farthest separation (conjunction) creating significant variations.

The question "How far is (594913) 'Ayló'chaxnim from Earth?" has practical implications for space exploration. This distance determines travel time for spacecraft, communication delays for mission control, and the amount of fuel required for interplanetary missions. Understanding this distance is essential for planning future missions to (594913) 'Ayló'chaxnim.

The distance between (594913) 'Ayló'chaxnim and Earth is not constant due to the elliptical nature of both planets' orbits. When (594913) 'Ayló'chaxnim and Earth are on the same side of the Sun (opposition), they are at their closest, making this the optimal time for observations and potential missions. Conversely, when they are on opposite sides of the Sun (conjunction), they are at their farthest separation, which can exceed the average distance significantly.